CN217686759U - Series combined type efficient heat exchanger - Google Patents

Abstract

The utility model discloses a series combined type high-efficiency heat exchanger, which comprises a front end plate, a rear end plate and a support column, wherein the front end plate is connected with the support column through an upper guide rod and a lower guide rod; the upper end welding of front end plate has the connecting foot on the front end plate, and the lower extreme welding of front end plate has the connecting foot under the front end plate, and the upper end welding of pillar has the connecting foot on the pillar, and the lower extreme welding of pillar has the connecting foot under the pillar, all offers the opening that is used for setting up the expansion bolt on connecting foot, front end plate under connecting foot, the pillar on the front end plate and connecting the foot under the pillar. The utility model discloses series composite high-efficient heat exchanger simple structure, the function is practical, has realized the aggregate erection between the several platen heat exchangers, and area is little, fixed mounting is convenient.

Description

Series combined type efficient heat exchanger

Technical Field

The utility model relates to a plate heat exchanger field especially relates to a high-efficient heat exchanger of series connection combined type.

Background

The plate heat exchanger is a novel efficient heat exchanger formed by stacking a series of metal sheets with certain corrugated shapes. Thin rectangular channels are formed between the various plates through which heat is exchanged. But current plate heat exchanger is mostly the independent structure, and unable composite erection between the several platen heat exchangers, when a platen heat exchanger can't satisfy the heat transfer demand, can only disperse and place several plate heat exchanger, and area is big, and fixed mounting is inconvenient, has brought certain difficulty for the use, therefore how to develop a high-efficient heat exchanger of series connection combined type and become the problem that technical staff in this field waited to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient heat exchanger of series connection combined type solves current plate heat exchanger and is mostly the independent structure, and the unable composite mounting between the several platen heat exchangers, when a platen heat exchanger can't satisfy the heat transfer demand, can only disperse and place several plate heat exchangers, and area is big, and fixed mounting is inconvenient, has brought the problem of certain difficulty for the use.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a series composite high-efficiency heat exchanger, which comprises a front end plate, a rear end plate and a strut, wherein the front end plate is connected with the strut through an upper guide rod and a lower guide rod; the welding of the upper end of front end plate has the connection foot on the front end plate, the welding of the lower extreme of front end plate has the connection foot under the front end plate, the welding of the upper end of pillar has the connection foot on the pillar, the welding of the lower extreme of pillar has the connection foot under the pillar, all offer the opening that is used for setting up the extension bolt on connection foot, front end plate down connection foot, the connection foot on the pillar and the connection foot under the pillar on the front end plate.

Furthermore, the left side edge and the right side edge of the front end plate are both provided with connecting angle iron mounting holes, the connecting angle iron mounting holes are provided with connecting angle irons through bolts, and the connecting angle irons are provided with openings for setting expansion bolts.

Furthermore, a hot side inlet, a hot side outlet, a cold side inlet and a cold side outlet are arranged on the front end plate.

Furthermore, flanges are arranged at the hot side inlet, the hot side outlet, the cold side inlet and the cold side outlet.

Furthermore, a front end plate upper connecting pin at the upper end of the front end plate is connected with a front end plate lower connecting pin at the lower end of the front end plate of the heat exchanger adjacent to the upper end of the front end plate through an expansion bolt; and the upper connecting leg of the strut at the upper end of the strut is connected with the lower connecting leg of the strut of the adjacent heat exchanger at the upper end through an expansion bolt.

Furthermore, the connecting angle iron on the left side of the front end plate is connected with the connecting angle iron on the right side of the front end plate of the adjacent heat exchanger on the left side through an expansion bolt.

Furthermore, the left side edge and the right side edge of the rear end plate are both provided with connecting angle iron mounting holes, the connecting angle iron mounting holes are provided with connecting angle irons through bolts, and the connecting angle irons are provided with openings for setting expansion bolts.

Furthermore, the connecting angle iron on the left side of the rear end plate is connected with the connecting angle iron on the right side of the rear end plate of the adjacent heat exchanger on the left side through an expansion bolt.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the series combined type efficient heat exchanger is connected with the front end plate of the heat exchanger adjacent to the upper end and the lower end of the strut and the connecting pins at the lower end and the upper end of the strut through the front end plate and the connecting pins at the upper end and the lower end of the strut, so that the quick combination of a plurality of heat exchangers is convenient to install and fix; the series combined type high-efficiency heat exchanger is connected with the front end plate, the right side of the rear end plate and the left connecting angle iron of the heat exchanger adjacent to the left side through the connecting angle irons at the left side and the right side of the front end plate and the rear end plate, so that the rapid combination of a plurality of heat exchangers is convenient to install and fix; the utility model discloses the hot side import of series combined type high-efficient heat exchanger, hot side export, cold side import and cold side exit all are provided with the ring flange, can realize establishing ties between the adjacent heat exchanger through the pipeline that has the ring flange between the adjacent heat exchanger, further promote the heat transfer effect. Generally speaking, the utility model discloses series composite high-efficient heat exchanger simple structure, the function is practical, has effectively solved current plate heat exchanger and has mostly been the independent structure, and the unable composite erection between the number platen heat exchanger, when a platen heat exchanger can't satisfy the heat transfer demand, can only disperse and place several plate heat exchanger, area is big, and fixed mounting is inconvenient, has brought the problem of certain difficulty for the use.

Drawings

The invention will be further explained with reference to the following description of the drawings:

FIG. 1 is a front view of the series combined high-efficiency heat exchanger of the present invention;

FIG. 2 is a front view of the front end plate;

FIG. 3 is a side view of the series composite high-efficiency heat exchanger of the present invention (without connecting angle iron);

FIG. 4 is a side view of the series combined high efficiency heat exchanger of the present invention;

fig. 5 is a combined state diagram of the series combined type high-efficiency heat exchanger of the present invention.

Description of reference numerals: 1. a front end plate; 2. a rear end plate; 3. an upper guide rod; 4. a lower guide rod; 5. a support post; 6. a sheet; 7. fixing the bolt; 8. the front end plate is connected with a foot; 9. a lower connecting pin of the front end plate; 10. connecting angle iron; 11. connecting angle iron mounting holes; 12. connecting feet are arranged on the support columns; 13. a connecting foot under the pillar; 14. a hot side inlet; 15. a hot side outlet; 16. a cold side inlet; 17. a cold side outlet.

Detailed Description

As shown in fig. 1 to 4, a series composite high-efficiency heat exchanger includes a front end plate 1, a rear end plate 2 and a pillar 5.

The utility model discloses a set up front end plate, including front end plate 1, pillar 5, front end plate 1, back end plate 2, front end plate 1 and back end plate 2 are provided with corresponding opening, front end plate 1's opening and back end plate 2's opening pass through fixing bolt 7 and lock.

The welding of the upper end of front end plate 1 has front end plate to go up to connect foot 8, the welding of the lower extreme of front end plate 1 has front end plate to connect foot 9 down, the welding of the upper end of pillar 5 has pillar to connect foot 12, the welding of the lower extreme of pillar 5 has pillar to connect foot 13 down, connect foot 8 on the front end plate, front end plate down connect foot 9, pillar on connect foot 12 and pillar down connect and all offer the opening that is used for setting up the extension bolt on the foot 13.

Connecting angle bar mounting hole 11 has all been seted up at the left side edge and the right side edge of front end plate 1, connecting angle bar mounting hole 11 is provided with connecting angle bar 10 through the bolt, set up the opening that is used for setting up the extension bolt on connecting angle bar 10.

Connecting angle bar mounting hole 11 has all been seted up at the left side edge and the right side edge of back end plate 2, connecting angle bar mounting hole 11 is provided with connecting angle bar 10 through the bolt, set up the opening that is used for setting up the extension bolt on connecting angle bar 10.

The front end plate 1 is provided with a hot side inlet 14, a hot side outlet 15, a cold side inlet 16 and a cold side outlet 17.

And flanges are arranged at the hot side inlet 14, the hot side outlet 15, the cold side inlet 16 and the cold side outlet 17. The adjacent heat exchangers can be connected in series through the pipeline with the flange plate, and the heat exchange effect is further improved.

The utility model discloses a combination process as follows:

as shown in fig. 5, a front end plate upper connecting pin 8 at the upper end of the front end plate 1 is connected with a front end plate lower connecting pin 9 at the lower end of the front end plate 1 of the heat exchanger adjacent to the upper end through an extension bolt; the upper column connecting leg 12 at the upper end of the column 5 is connected with the lower column connecting leg 13 of the column 5 of the heat exchanger adjacent to the upper end through an expansion bolt.

The connecting angle iron 10 on the left side of the front end plate 1 is connected with the connecting angle iron 10 on the right side of the front end plate 1 of the adjacent heat exchanger on the left side through an expansion bolt.

The connecting angle iron 10 on the left side of the rear end plate 2 is connected with the connecting angle iron 10 on the right side of the rear end plate 2 of the adjacent heat exchanger on the left side through an expansion bolt.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. A series combined type efficient heat exchanger is characterized in that: the novel steel plate pile is characterized by comprising a front end plate (1), a rear end plate (2) and a strut (5), wherein the front end plate (1) is connected with the strut (5) through an upper guide rod (3) and a lower guide rod (4), the rear end plate (2) is slidably arranged on the upper guide rod (3) and the lower guide rod (4), a plate sheet (6) is arranged between the front end plate (1) and the rear end plate (2), corresponding notches are arranged at the edges of the front end plate (1) and the rear end plate (2), and the notches of the front end plate (1) and the rear end plate (2) are locked through fixing bolts (7); the welding of the upper end of front end plate (1) has connection foot (8) on the front end plate, the welding of the lower extreme of front end plate (1) has connection foot (9) under the front end plate, the welding of the upper end of pillar (5) has connection foot (12) on the pillar, the welding of the lower extreme of pillar (5) has connection foot (13) under the pillar, all offer the opening that is used for setting up the extension bolt on connection foot (8) on the front end plate, connection foot (9) under the front end plate, connection foot (12) and pillar are connected foot (13) under connection foot (8).

2. The series compound high efficiency heat exchanger of claim 1, wherein: the left side edge and the right side edge of front end plate (1) have all been seted up and have been connected angle bar mounting hole (11), connect angle bar mounting hole (11) and be provided with connection angle bar (10) through the bolt, set up the opening that is used for setting up the extension bolt on connecting angle bar (10).

3. The series compound high efficiency heat exchanger of claim 1, wherein: the front end plate (1) is provided with a hot side inlet (14), a hot side outlet (15), a cold side inlet (16) and a cold side outlet (17).

4. The series compound high efficiency heat exchanger of claim 3, wherein: and the hot side inlet (14), the hot side outlet (15), the cold side inlet (16) and the cold side outlet (17) are respectively provided with a flange.

5. The series compound high efficiency heat exchanger of claim 2, wherein: the upper connecting pin (8) of the front end plate at the upper end of the front end plate (1) is connected with the lower connecting pin (9) of the front end plate at the lower end of the front end plate (1) of the heat exchanger adjacent to the upper end of the front end plate through an expansion bolt; and the upper strut connecting pin (12) at the upper end of the strut (5) is connected with the lower strut connecting pin (13) of the strut (5) of the heat exchanger adjacent to the upper end through an expansion bolt.

6. The series compound high efficiency heat exchanger of claim 2, wherein: and the connecting angle iron (10) on the left side of the front end plate (1) is connected with the connecting angle iron (10) on the right side of the front end plate (1) of the adjacent heat exchanger on the left side through an expansion bolt.

7. The series compound high efficiency heat exchanger of claim 1, wherein: the left side edge and the right side edge of back end plate (2) have all been seted up and have been connected angle bar mounting hole (11), connect angle bar mounting hole (11) and be provided with connection angle bar (10) through the bolt, set up the opening that is used for setting up the extension bolt on connecting angle bar (10).

8. The series compound high efficiency heat exchanger of claim 7, wherein: and the connecting angle iron (10) on the left side of the rear end plate (2) is connected with the connecting angle iron (10) on the right side of the rear end plate (2) of the adjacent heat exchanger on the left side through an expansion bolt.

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